Expression of a Truncated Form of the c-Kit Tyrosine Kinase Receptor and Activation of Src Kinase in Human Prostatic Cancer

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Expression of a Truncated Form of the c-Kit Tyrosine Kinase Receptor and Activation of Src Kinase in Human Prostatic Cancer

Maria Paola Paronetto^*, Donatella Farini^*, Innocenzo Sammarco^*, Giovanni Maturo, Giuseppe Vespasiani, Raffaele Geremia^*, Pellegrino Rossi^* and Claudio Sette^*

From the Dipartimento di Sanità Pubblica e Biologia Cellulare^* and the Dipartimento di Biopatologia e Diagnostica per Immagini, Facoltà di Medicina e Chirurgia, Università di Roma "Tor Vergata," Rome, Italy

A truncated form of the c-Kit tyrosine kinase receptor, originallyidentified in mouse haploid germ cells, is aberrantly expressedin human cancer cell lines of various origin. This alternativetranscript originates in the 15th intron of the human c-kitgene. We have previously demonstrated that sperm-carried mousetruncated c-Kit (tr-Kit) is a strong activator of the Src-familytyrosine kinases both in transfected cells and in mouse oocytes.In the present work, we report that human tr-Kit mRNA and proteinare expressed in LNCaP prostatic cancer cells. We have identifiedtwo regions in the 15th and 16th introns of the human c-kitgene that show homology with sequences in the spermatid-specifictr-Kit promoter within the 16th intron of mouse c-kit. We alsoshow that nuclear factors present in LNCaP cells bind to discretesequences of the mouse tr-Kit promoter. Moreover, Western blotanalysis of 23 primary prostate cancers indicated that tr-Kitwas expressed in $~$ 28% of the tumors at less advanced stages (Gleasongrade 4 to 6) and in 66% of those at more advanced stages (Gleasongrade 7 to 9), whereas it was not expressed in benign prostatichypertrophies. Sequencing of the cDNA for the truncated c-Kit,amplified from both LNCaP cells and neoplastic tissues, confirmedthe existence in prostate cancer cells of a transcript arisingfrom the 15th intron of human c-kit. We also show that tr-Kit-expressingLNCaP cells and prostatic tumors have higher levels of phosphorylated/activatedSrc than tr-Kit-negative PC3 cells or prostatic tumors, andthat transfection of tr-Kit in PC3 cells caused a dramatic increasein Src activity. Interestingly, we found that Sam68, a RNA-bindingprotein phosphorylated by Src in mitosis, is phosphorylatedonly in prostate tumors expressing tr-Kit. Indeed, both activationof Src and phosphorylation of Sam68 were observed in all ofthe three grade 7 to 9 tumors analyzed that expressed tr-Kit.Our data describe for the first time the existence of a truncatedc-Kit protein in primary tumors and show a correlation betweentr-Kit expression and activation of the Src pathway in the advancedstages of the disease. Thus, these results might pave the wayfor the elucidation of a novel pathway in neoplastic transformationof prostate cells.

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